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NUMERACY ACTION PLAN
Excellence | Equity | New Evangelization
2 Durham Catholic District School Board | dcdsb.ca
IntroductionFor the past few years, the numeracy goal at the Durham Catholic District School Board has been to
improve student engagement and achievement by learning through the Mathematical Processes. In
2014/2015, this was adapted to include the context of Balanced Numeracy.
As educators, we have learned a great deal about our students and how they best learn
Mathematics. We have developed diagnostics for Number Sense (Continuum Based Math (CBM)),
Scope and Sequence documents to assist educators with their program. We also understand the
importance of having a program that balances rich tasks, while promoting conceptual
understanding with carefully planned practice opportunities.
We know that a rich task for one student might not be rich for another student in the same
class. What makes a task rich is how well students can utilize the Mathematical Processes and
Polya's Four-Step Problem Solving Model. We also know how students' Numeracy development
can be measured on various continua and, in particular, the Concrete-Diagrammatic-Symbolic
continuum (which is used extensively in Singapore). As educators, it’s crucial for us to provide
students with opportunities to talk through their mathematical ideas with others — by listening
carefully to these conversations, we can obtain great insights into what our students do and don't
understand.
Above all, we know that all students best learn Math by actually doing Math.
Looking ahead, we will continue to build on our knowledge of Numeracy by offering the following
supports:
• Collaborative Inquiry for Learning Mathematics (CILM) in 12 schools
• Job-Embedded Learning sessions
• Math Cafés
• Capacity Building Days
• Student Work Study Teachers (SWST)
• Numeracy Action Teams
Our MissionWe are called to celebrate and nurture the God-given talents of each student as we servewith excellence in the light of Christ.
Numeracy Action Plan 3
Balanced NumeracyBy focusing on Balanced Numeracy, we understand that there is no one perfect instructional approach.
A Balanced Numeracy program is not made up entirely of lessons with students copying notes from a
blackboard. Nor is it entirely comprised of lessons with students working at Math centres. Instead, a
good Math program offers a balance of the following:
• conceptual and procedural understanding;
• investigation;
• problems and practice;
• groupings (whole class, small — homogeneous and heterogeneous and independent);
• instructional approaches;
• assessment strategies (observation, conversation, product); and
• assessment purposes (for/as/of learning).
By going deeper with Balanced Numeracy, we will learn more about what Balanced Numeracy is and
what it looks like in our classrooms.
Online Resources for Teachers• mathematicsmastery.org/mastery-what-it-isand-what-it-isnt
• youcubed.org/fluency-without-fear
• themathguy.blogspot.ca/2015/06/balanced-math-mastery.html
Skilled Numeracy – fluent coordination of MathematicalKnowledge to effectively solveproblems
Problem Solving Skills:• Reasoning and Proving• Reflecting• Selecting Tools and Strategies• Connecting• Representing
Mathematical Knowledge:Number Bonds (additive facts,multiplication facts, decompositionnumbers)
Spacial Bonds (shape recognition,symmetry sense, decomposition)
Communication (use of conventions, symbols, etc.)
Increasinglystrategic
Increasinglyautomatic
4 Durham Catholic District School Board | dcdsb.ca
Using Problem Solving ModelsProblem solving is at the heart of all Math and actually
predates Math concepts and procedures. It is a myth to
say that students must learn concepts before they can
learn how to use them in problem solving situations.
We have seen many examples of great problems that
students have solved that have led to new concepts
being learned. What is important is that the problems
must be relevant to the students. This doesn't mean
that the problems must be 'real-world' — sometimes a
'contrived-world' problem is counter-productive.
By going deeper in our learning of problem solving
models, we will extend the importance of seeing
students use the Mathematical Processes when solving
rich tasks and make connections to Polya's Four-Step
Problem Solving Model (Understand the Question;
Make a Plan; Carry out the Plan; and Look Back at the
Solution). Polya's Four-Step Problem Solving
Online Resources for Teachers• math.berkeley.edu/~gmelvin/polya.pdf
• youcubed.org/tasks
• themathguy.blogspot.ca/2015/04/have-you-checked-your-work.html
Numeracy Action Plan 5
Continua for LearningWhen educators are aware of how Mathematical thinking
develops, they are able to make on the spot decisions
and provide immediate feedback to the observations
and conversations that are occurring in their classroom.
In analyzing the work that is produced, educators can
support what learning needs to come next and how to
help struggling students. Educators and students are
empowered to see learning as a continuation with
incremental steps.
As educators, we have learned a lot about continua
such as:
• Concrete-Diagrammatic-Symbolic (for learningnew concepts or for scaffolding problem solving);
or
• Next-Near-Far-Any (to help students generalize apattern); or have taken
• Sandra Herbst's assessment continua forimproving student learning to create a continua for
problem solving as seen in the following video:
youtube.com/watch?v=aLy634hXqH4.
Online Resources for Teachers• thedailyriff.com/WordProblems.pdf
• hmhco.com/~/media/sites/home/education/global/pdf/white-papers/mathematics/elementary/math-in-focus/MIF_Model_Drawing_LR.pdf
• themathguy.blogspot.ca/2015/01/bar-models-1.html
• themathguy.blogspot.ca/2015/03/patterns-are-predictable.html
• edugains.ca/newsite/math/continuum_connections.html
Concrete
Diagrammatic
Symbolic
6 Durham Catholic District School Board | dcdsb.ca
Professional Learning ResourcesHow do you improve Math knowledge and pedagogy at the same time? What if a specific content
area is also your area of greatest weakness? An idea is to address numeracy skills throughout the year
rather than in separate units — this will allow you as educators to provide balance to your program.
Below are a series of documents that delve deeper into specific content areas, while giving
meaningful examples and tasks.
Online Resources for Teachers• edu.gov.on.ca/eng/teachers/studentsuccess/ProportionReason.pdf
• edu.gov.on.ca/eng/literacynumeracy/PayingAttentiontoAlgebra.pdf
• edu.gov.on.ca/eng/literacynumeracy/LNSPayingAttention.pdf
• edu.gov.on.ca/eng/literacynumeracy/LNSAttentionFractions.pdf
“You’re braver than you believe,and stronger than you seem, and smarter than you think!”
– Christopher Robin,Pooh’s Grand Adventure (1997)
Numeracy Action Plan 7
Conversations in the ClassroomAs educators familiarize themselves with Three Part Learning and Balanced Numeracy, a question that
often arises is how do I consolidate learning and ensure that the discussion taking place during Math
is meaningful? Two books that may assist educators in answering this question are:
Online Resources for Teachers• youcubed.org/from-stanford-onlines-how-to-learn-math-for-teachers-and-parents-
number-talks/
• mathsolutions.com/documents/numbertalks_sparrish.pdf
• insidemathematics.org/classroom-videos/number-talks
• mctm.org/mespa/5Practices.pdf
Number Talks serve to enhance Math conversations by making sense of
problem solving, reasoning, constructing viable arguments for critiquing,
modeling Math, use of tools strategically, attending to precision, looking for
and using structure, and expressing regularity. Through these conversations,
it is the intention to enhance the balanced Math classroom by building
conceptual understanding and problem solving skills.
5 Practices help to make consolidation more intentional. Student-centered
instruction can be challenging, but manageable by using 5 Practices thathelp educators plan, anticipate and improvise a meaningful consolidation.
Through the 5 Practices of anticipating, monitoring, selecting, sequencingand connecting student responses, educators can make better use
of their time in consolidation and help engage their students in Math,
making it feel relevant.
Tel: 905.576.6150 | dcdsb.ca |
© DCDSB August 2015
Learning EnvironmentThe learning environment, or Third Teacher,encompasses the physical space in which we learn as
well as the social dynamic that exists between
teachers, students and the curriculum. A reflective
learning environment is one that supports critical
thinking, collaboration and enhances student voice.
Students need a space where they can access
manipulatives to solve problems and the ability to
record and share their thinking, either through the
use of technology or through more traditional
methods. Students need space to post co-created
reference charts and success criteria as well as a
social environment that encourages collaboration,
student voice, rich Mathematical dialogue and deep
problem solving. When students are active
participants in the creation of their learning
environment, they have increased feelings of self-
efficacy and have increased ownership of their
education. The above documents (The Third Teacher
and Student Voice Monographs) will help educators
go deeper in their understanding of the learning
environment.
Online Resources for Teachers• edugains.ca/resourcesLNS/Monographs/CapacityBuildingSeries/CBS_ThirdTeacher.pdf
• edugains.ca/resourcesLIT/ProfessionalLearning/CBS/CBS_StudentVoice.pdf
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